反应等离子喷涂 Al2O3-TiB2-Al 复相涂层的反应机理

周小平; 王小军; 朱理奎

ZHOU Xiao-ping,WANG Xiao-jun,ZHU Li-kui.Reaction Mechanism of the Formation of Plasma-spraying Al₂ O₃-TiB₂ -Al Composite Coatings[J],43(4):6-10,16

Reaction Mechanism of the Formation of Plasma-spraying Al₂ O₃-TiB₂ -Al Composite Coatings

Received:February 21, 2014 Revised:April 09, 2014

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KeyWord:reactive plasma spraying Al₂O₃-TiB₂-Al composite coatings combustion front quenching technique combustion reaction

Author	Institution
ZHOU Xiao-ping	Reaction Mechanism of the Formation of Plasma-spraying Al₂ O₃-TiB₂ -Al Composite CoatingsHubei Provincial Key Laboratory of Green Materials for Light Industry, Hubei University of Technology, Wuhan ,China
WANG Xiao-jun	Reaction Mechanism of the Formation of Plasma-spraying Al₂ O₃-TiB₂ -Al Composite CoatingsHubei Provincial Key Laboratory of Green Materials for Light Industry, Hubei University of Technology, Wuhan ,China
ZHU Li-kui	Reaction Mechanism of the Formation of Plasma-spraying Al₂ O₃-TiB₂ -Al Composite CoatingsHubei Provincial Key Laboratory of Green Materials for Light Industry, Hubei University of Technology, Wuhan ,China

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Abstract:

Objective To investigate the preparation of Al₂O₃ -TiB₂ -Al composite coating on the aluminum alloy surface, and analyze the reaction mechanism of Al, TiO₂, B₂O₃in plasma spraying. Methods The composite coating was prepared on the surface of aluminum alloy using plasma spraying technology. The phase composition and microstructure evaluation of composite coating layer were analyzed by scanning electron microscopy ( SEM) and X-ray diffraction technology. The combustion products of combustion front quenching technique were tested. Results It was found that the activation energy of the powder reaction was effectively decreased by mechanical milling, and the optimal flying distance range of plasma spraying was 150 ~ 200 mm. Conclusion According to the results, the composite powder experienced the processes of preheating, melting, decomposition and agglomeration during the flight, which verified the mechanism of combustion reaction.